The MDU fibre LNB is used when a terrestrial feed is
not going to be sent down the same fibre cable
Optical LNBs are needed for long cable runs. If the cable run is over 70m an optical LNB may be needed.
A high output LNB like a Primesat Platinum 0.1dB and very low loss cable is fine up to 70m and perhaps
even a little further but certainly for cable runs of 100m + an optical equipment is needed.
An optical fibre can be a kilometre long and still have zero loss. The optical fibre LNB works from 12 volts
and so a 220-240V to 24V power supply is included. This supply should be situated as close to the LNB as
possible. Clearly if it is not close the LNB, the 12 volts may be reduced by the time it reached the
end of a long cable (due to the voltage drop in the cable). If the LNB does not receive a enough voltage it
may not work correctly. An optical fibre cable connects to the LNB and this can go direct to the electrical
interface or it can be split using optical splitters. Either way it must connect to an optical to electrical interface
(called a "Virtual Quad Converter") and there are two types. One has a quad output (same as a quad LNB)
and the other has a quatro output (same as a quatro LNB). The quad output can feed 4 single tuner satellite
receivers or two twin tuner satellite receivers. The quatro interface ("Virtual Quatro Converter") feeds into
a multiswitch and then as many outputs as are needed can then be provided by the correct multiswitch.
Multiswitches can have up to 48 outputs but more than one multiswitch can be used if more than 48 outputs
are required. Optical fibre cable is difficult to terminate without the correct tool and so it is best to orderpre-made optical cables with the connectors already fitted. Make sure the pre-made cable is long enough for the
job! Too long is not a problem as there is zero loss. It is also possible to overload the electrical interface and so anoptical attenuator should be fitted. This is needed if only one optical fibre cable runs from the LNB directly to the
interface ("virtual converter"). It may not be needed if optical splitters are being used as they may provide sufficient
attenuation. Our technical department can provide advice on balancing the system's gain and attenuation levels.
Specifications - Input Frequency: 10.7-12.75 GHz (Ku Band). Output Frequency: 950-5.45 GHz
Modulated Laser Output: 1310nm. Noise Figure Typical at 25°C: 0.5dB
Max & Min Gain: 72-62dB Phase Noise: 1 KHz -55dBc/Hz, 10KHz -80dBc/Hz, 100KHz -100dBc/Hz, 1MHz -110dBc/Hz

The MDU fibre LNB is used when a terrestrial feed is
not going to be sent down the same fibre cableA c120 flange LNB is designed to fit on a feedhorn.
Optical LNBs are needed for long cable runs. If the cable run is over 70m an optical LNB may be needed.
A high output LNB like a Primesat Platinum 0.1dB and very low loss cable is fine up to 70m and perhaps
even a little further but certainly for cable runs of 100m + an optical equipment is needed.
An optical fibre can be a kilometre long and still have zero loss. The optical fibre LNB works from 12 volts
and so a 220-240V to 24V power supply is included. This supply should be situated as close to the LNB as
possible. Clearly if it is not close the LNB, the 12 volts may be reduced by the time it reached the
end of a long cable (due to the voltage drop in the cable). If the LNB does not receive a enough voltage it
may not work correctly. An optical fibre cable connects to the LNB and this can go direct to the electrical
interface or it can be split using optical splitters. Either way it must connect to an optical to electrical interface
(called a "Virtual Quad Converter") and there are two types. One has a quad output (same as a quad LNB)
and the other has a quatro output (same as a quatro LNB). The quad output can feed 4 single tuner satellite
receivers or two twin tuner satellite receivers. The quatro interface ("Virtual Quatro Converter") feeds into
a multiswitch and then as many outputs as are needed can then be provided by the correct multiswitch.
Multiswitches can have up to 48 outputs but more than one multiswitch can be used if more than 48 outputs
are required. Optical fibre cable is difficult to terminate without the correct tool and so it is best to orderpre-made optical cables with the connectors already fitted. Make sure the pre-made cable is long enough for the
job! Too long is not a problem as there is zero loss. It is also possible to overload the electrical interface and so anoptical attenuator should be fitted. This is needed if only one optical fibre cable runs from the LNB directly to the
interface ("virtual converter"). It may not be needed if optical splitters are being used as they may provide sufficient
attenuation. Our technical department can provide advice on balancing the system's gain and attenuation levels.
Specifications - Input Frequency: 10.7-12.75 GHz (Ku Band). Output Frequency: 950-5.45 GHz
Modulated Laser Output: 1310nm. Noise Figure Typical at 25°C: 0.5dB
Max & Min Gain: 72-62dB Phase Noise: 1 KHz -55dBc/Hz, 10KHz -80dBc/Hz, 100KHz -100dBc/Hz, 1MHz -110dBc/Hz

Kit contents, wholeband fibre LNB, ODU (Out Door Unit) cables.
This kit is ideal if the plan is to transmit both the terrestrial aerial (s) and satellite down the fibre cable. If
the Virtual Quatro Converter is used there is a terrestrail electrical output. If the Virtual Quad Converter is
used, the terrestrial and satellite are combined and are separated by a quad plate or triplexing plate. Optical LNBs
are needed for long cable runs. If the cable run is over 70m an optical LNB may be needed. A high output LNB like a
Primesat Platinum 0.1dB and very low loss cable is fine up to 70m and perhaps even a little further but certainly for
cable runs of 100m + an optical equipment is needed. An optical fibre can be a kilometre long and still have zero loss.
(called a "Virtual Quad Converter") and there are two types. One has a quad output (same as a quad LNB)
and the other has a quatro output (same as a quatro LNB). The quad output can feed 4 single tuner satellite
receivers or two twin tuner satellite receivers. The quatro interface ("Virtual Quatro Converter") feeds into
a multiswitch and then as many outputs as are needed can then be provided by the correct multiswitch.
Multiswitches can have up to 48 outputs but more than one multiswitch can be used if more than 48 outputs
are required. Optical fibre cable is difficult to terminate without the correct tool and so it is best to orderpre-made optical cables with the connectors already fitted. Make sure the pre-made cable is long enough for the
job! Too long is not a problem as there is zero loss. It is also possible to overload the electrical interface and so anoptical attenuator should be fitted. This is needed if only one optical fibre cable runs from the LNB directly to the
interface ("virtual converter"). It may not be needed if optical splitters are being used as they may provide sufficient
attenuation. Our technical department can provide advice on balancing the system's gain and attenuation levels.

The wholeband fibre LNB is used with an ODU kit and a
terrestrial feed is going to be sent down the same fibre cable
Optical LNBs are needed for long cable runs. If the cable run is over 70m an optical LNB may be needed.
A high output LNB like a Primesat Platinum 0.1dB and very low loss cable is fine up to 70m and perhaps
even a little further but certainly for cable runs of 100m + an optical equipment is needed.
An optical fibre can be a kilometre long and still have zero loss. The optical fibre LNB works from 12 volts
and so a 220-240V to 24V power supply is included. This supply should be situated as close to the LNB as
possible. Clearly if it is not close the LNB, the 12 volts may be reduced by the time it reached the
end of a long cable (due to the voltage drop in the cable). If the LNB does not receive a enough voltage it
may not work correctly. An optical fibre cable connects to the LNB and this can go direct to the electrical
interface or it can be split using optical splitters. Either way it must connect to an optical to electrical interface
(called a "Virtual Quad Converter") and there are two types. One has a quad output (same as a quad LNB)
and the other has a quatro output (same as a quatro LNB). The quad output can feed 4 single tuner satellite
receivers or two twin tuner satellite receivers. The quatro interface ("Virtual Quatro Converter") feeds into
a multiswitch and then as many outputs as are needed can then be provided by the correct multiswitch.
Multiswitches can have up to 48 outputs but more than one multiswitch can be used if more than 48 outputs
are required. Optical fibre cable is difficult to terminate without the correct tool and so it is best to orderpre-made optical cables with the connectors already fitted. Make sure the pre-made cable is long enough for the
job! Too long is not a problem as there is zero loss. It is also possible to overload the electrical interface and so anoptical attenuator should be fitted. This is needed if only one optical fibre cable runs from the LNB directly to the
interface ("virtual converter"). It may not be needed if optical splitters are being used as they may provide sufficient
attenuation. Our technical department can provide advice on balancing the system's gain and attenuation levels.This wholeband LNB This LNB is normally part of an ODU kit. That means it feeds into the ODU and so does
a terrestrial aerial. The satellite and terrestrial signal can then travel down the one fibre cable. If a quatro
converter is used at the far end, the terrestrial signal comes out of the terrestrial output. If a quad converter
is used at the far end, the terrestrial signal is separated from the satellite signal using a quad plate or
triplexing plate in the final location / room.

The wholeband fibre LNB is used with an ODU kit and a
terrestrial feed is going to be sent down the same fibre cableA c120 flange LNB is designed to fit on a feedhorn.
Optical LNBs are needed for long cable runs. If the cable run is over 70m an optical LNB may be needed.
A high output LNB like a Primesat Platinum 0.1dB and very low loss cable is fine up to 70m and perhaps
even a little further but certainly for cable runs of 100m + an optical equipment is needed.
An optical fibre can be a kilometre long and still have zero loss. The optical fibre LNB works from 12 volts
and so a 220-240V to 24V power supply is included. This supply should be situated as close to the LNB as
possible. Clearly if it is not close the LNB, the 12 volts may be reduced by the time it reached the
end of a long cable (due to the voltage drop in the cable). If the LNB does not receive a enough voltage it
may not work correctly. An optical fibre cable connects to the LNB and this can go direct to the electrical
interface or it can be split using optical splitters. Either way it must connect to an optical to electrical interface
(called a "Virtual Quad Converter") and there are two types. One has a quad output (same as a quad LNB)
and the other has a quatro output (same as a quatro LNB). The quad output can feed 4 single tuner satellite
receivers or two twin tuner satellite receivers. The quatro interface ("Virtual Quatro Converter") feeds into
a multiswitch and then as many outputs as are needed can then be provided by the correct multiswitch.
Multiswitches can have up to 48 outputs but more than one multiswitch can be used if more than 48 outputs
are required. Optical fibre cable is difficult to terminate without the correct tool and so it is best to orderpre-made optical cables with the connectors already fitted. Make sure the pre-made cable is long enough for the
job! Too long is not a problem as there is zero loss. It is also possible to overload the electrical interface and so anoptical attenuator should be fitted. This is needed if only one optical fibre cable runs from the LNB directly to the
interface ("virtual converter"). It may not be needed if optical splitters are being used as they may provide sufficient
attenuation. Our technical department can provide advice on balancing the system's gain and attenuation levels.This wholeband LNB This LNB is normally part of an ODU kit. That means it feeds into the ODU and so does
a terrestrial aerial. The satellite and terrestrial signal can then travel down the one fibre cable. If a quatro
converter is used at the far end, the terrestrial signal comes out of the terrestrial output. If a quad converter
is used at the far end, the terrestrial signal is separated from the satellite signal using a quad plate or
triplexing plate in the final location / room.

This site includes many products that are exclusive to the Satellite Superstore.
The site contains -
• Products that we manufacture (e.g. We have manufactured heavy duty wall mounts and ground stands since 1991).
• Selected products which have our own Primesat brand name and have been prepared to our specifications.
• Selected products where we have been appointed the authorised UK or European distributor by the manufacturer.www.primesat.eu is an information site. Here you will find full specifications and many detailed pictures.
To buy any of these products, simply order them on this web site.

Also see www.rewindmuseum.com. A Museum of vintage consumer electronics.
Vintage reel to reel video recorders. Vintage VHS and Betamax VCRs. Vintage video cameras. Vintage
Laser Disc. Vintage Computers. Old telephones. Old brick mobile phones. Vintage Hi Fi, Old reel
to reel audio and early audio cassette decks. Including, the history time line of vintage
consumer electronics ... and much more .....

It is well worth a visit.
Only The Satellite Superstore brings you
great products, advice and it's own museum.